TH61715A - Assembly and method for multistage fluid separation - Google Patents

Abstract

The DC60 (27/02/55) assembly for multistage fluid separation has been revealed. It includes one or more primary gas cooling equipment (1), each of which There is a solution for concentrated fluids, a condensed substance in a liquid and / or solid state (8), and a secondary fluid separation container (2) with a tube (10) vertical section where the container (2) It will be connected to an outlet for the concentrated fluid which is a condensed substance (8) of the primary gas cooling device. (Multiple) (1) through a pipe along the contact line (3), in which the concentrated fluid, a condensed substance, is injected along the contact line into the tubular section (10) in such a way that the tertiary current ( 17) of a condensate in a liquid and / or solid state are subjected to gravitational induction. And centrifugal force for Circulate downward, along the flanks, inner surface of the tubular section (10) into the liquid collection tank (19) at or near the bottom of the container (2) for the collection of tertiary mixtures. Of condensate in a liquid and / or solid state, for which tanks (19) are provided with one or more heating equipment (20) for heating Hot tertiary mixtures to reduce the amount of condensation in solid conditions such as wax, paraffin and hydrates. And, along with one or more liquid solutions (23, 26), the multistage fluid separation assembly has been disclosed. It includes one or more primary gas cooling equipment (1), each of which There is a solution for concentrated fluids, a condensed substance in a liquid and / or solid state (8), and a secondary fluid separation container (2) with a tube (10) vertical section where the container (2) It will be connected to an outlet for the concentrated fluid which is a condensed substance (8) of the primary gas cooling device. (Multiple) (1) through a pipe along the contact line (3), in which the concentrated fluid, a condensed substance, is injected along the contact line into the tubular section (10) in such a way that the tertiary current ( 17) of a condensate in a Liquids and / or solids are subjected to gravitational induction and Centrifugal force for Circulate downward, along the flanks, inner surface of the tubular section (10) into the liquid collection tank (19) at or near the bottom of the container (2) for the collection of tertiary mixtures. Of condensate in a liquid and / or solid state, for which tanks (19) are provided with one or more heating equipment (20) for heating Hot tertiary mixtures to reduce the amount of condensation in solid conditions such as wax, paraffin and hydrates. And with one or more solutions for liquids (23,26)

Claims (8)

Disclaimer (all) that will not appear on the advertisement page: 1. Multi-layer fluid separation assembly. Which includes Primary gas cooling device with outlet for enriched fluid, which is a condensed substance. (condensable) in a liquid and / or solid state and a secondary fluid separation vessel, which has a tubular section where the center axis is aligned in an inclined or vertically oriented state. It is significant that the container is connected to a solution for the aforementioned concentrated fluids. Of the equipment for cooling such primary gas Where during the normal operation of Containers of a concentrated fluid, a condensed substance, are induced to circulate. The central axis of the tubular portion of the container in such a way that the immunity of the condensed substance In a liquid and / or solid state, it is subjected to gravitational and centrifugal induction. Centered for downward, lateral circulation, the inner surface of the tubular section of The container enters the liquid collection tank at or near the bottom of the collection container. Tertiary mixtures of condensate substances in a liquid and / or solid state to which the tank is exposed. Arrangement with one or more heating equipment for heating. Tertiary mixtures to reduce the amount of condensed matter in the solid state to be less and ready With one or more exits for the release of the tertiary mixture from to Where a number of secondary fluid injection hoses of gas cooling equipment A number of primary ones will be connected at evenly circumferential intervals to the tubular section. Of the secondary separation container in which the tubing is injected using a concentrated fluid, which is a Condensation is possible in the direction along the least partial tangent line in the inner part of the container. Contain for secondary separation 2. Assembly for separation fluid of claim 1, where to accumulate liquid. It includes a liquid solution above for components in a liquid state. Which has a low density and bottom liquid solution for components in a 3. Liquid separation assembly of claim 1 or 2 where the tubular segment of The secondary separation container will be installed consisting of an outlet pipe for tertiary gas. Which has an entrance, which is located at or near the center axis of the tubular section. 4. Assembly for the elimination of fluid of claim 3, where the container for The secondary isolation will have a domed top or a disc, which is installed on top of the section. The pipe shape and outlet pipe for tertiary gas are arranged in the same axial manner with The significance of the center axis of the tubular section and passes through the top of it. 5. Assembly for separating the fluid of claim 1 where the outlet for the fluid. Concentrate, a condensed substance in the liquid and / or solid state of the equipment for At least one primary gas cooling device will be connected to a pipe for injection. Secondary fluids, which are injected in the use of concentrated fluids, which are condensate in the direction of The least partial contact line enters the tubular section of the secondary separation container. 6. Assembly for fluid separation of claim 5, where the center axis of the section. The tubular shape of the secondary separation container is significantly aligned vertically and a number of such secondary fluid injection tubes are injected using a concentrated fluid that is Condensate in a downward, partial and partial downward direction as This is minimized into the inner part of the secondary separation container. 7. The fluid separation assembly of claim 1, where the liquid accumulates, will It has been formed by the cup-shaped tubular bottom of the separation container. The second stage, which is significantly co-axial with the center axis and is broadly 8. The separation fluid assembly of claim 1, where the vortex breaker is located on the inside of the container for separation. Secondary between ends The bottom of the tubular section and the liquid-collector tank 9. Assembly for fluid separation of claim 1, where the assembly will be Supplied with one or more ultrasonic vibration transducers for generating sonic vibrations on one component. Components or more of an assembly to inhibit condensation build-up in Solid conditions such as ice, wax and / or hydrated within Assembly 1 0. Assembly for fluid separation of any Clause 5, 8 and 9. Where, at least, the secondary fluid injection hoses and the eddy current circuit breaker will be installed. Includes 1 sonic oscillation converter. 1. The fluid separation assembly of Clause 9 or 10 where the oscillation converter The sonic rate is oscillating in the use of one component or More of an assembly at frequencies between 20 and 200 kHz 1 2. Assembly for fluid separation claim No. 1, where the liquid storage tank Will be provided with a network of pipes for heating, which is planned The fluid mixture is heated in a liquid and solid state in the tank to at least 15 ° C. 1 3. Assembly for separating the fluid of any of the foregoing claims Where each gas cooling device is equipped with an inertial separation device Primary cyclonic inertia separator, which includes a nosel for Expand where the fluid mixture is cooled to a temperature below 0 ° C with Significantly expanded, and where the propeller for convection of one Or more will induce the fluid to circulate in the evaporative design part which has been The installation consists of an outlet pipe for a fluid free from primary condensation. Center and outlet pipe for a concentrated fluid, an outer secondary condensate 1 4. The fluid separation assembly of claim 13, where the Each primary rotating inertial device is equipped with an expansion node which has been A plan to accelerate the mixture of fluids within the Nossas to supersonic speed, which is the Cool in using the temperature of the fluid that flows through the nossel to a temperature below -20 ° C 1 5. Fluid separation assembly of Clause 13 or 14, which includes A number of primary spiral inertia separation devices where expansion nossels are Is parallel and is significantly equal to the center axis of the tubular section of the container for Secondary isolation and where the solution for the concentrated fluid, a secondary condensed substance, is obtained Connection to the pipe for secondary fluid injection which intersects the wall of the tubular section of the container. For secondary intersections at evenly spaced intervals and in linear directions Some touches are the least. Where each secondary fluid injection hose is less than 4 m 1 6. Fluid separation assembly of claim 1 where the equipment for cleaning The gas cooler is composed of a choke, like a Joulthomson 1 tongue. 7. Methods for separating condensate components from fluid mixtures. In an assembly for multistage fluid separation Where the methods are included Injecting the fluid mixture into the primary gas cooling equipment where the mixture The fluid will be expanded and cooled and its components are condensed. Are liquefied and / or solidified and are separated in a manner that Choice of components in a gaseous state with centrifugal force. And where the flow of The components in a concentrated fluid, a condensate state, are fed into the Solution for secondary fluids and component streams in a condensed, concentrated fluid state. Into the secondary fluid separation container, which has a tubular segment where the center axis will be positioned The line is vertical, or is significantly inclined, and where the concentrated fluid flow, the substance The condensation type is then induced to circulate around the center axis of the tubular section of the container. Packed in such a way that the tertiary mixture of a condensed substance in a liquid and / or solid state is then induced by gravity and centrifugal force for directional circulation. Downward along the sides, the inner surface of the tubular portion of the container into the collection tank. Liquid at or near the bottom of the container Where in this tank the tertiary mix of a condensed substance In the liquid and / or solid state, it is collected and heated to reduce its content. Of the condensate under the solid state and where from this tank the components in the liquid and / or solid state are discharged through one or more exits. Where a number of secondary fluid injection hoses of gas cooling equipment A number of primary ones will be connected at evenly circumferential intervals to the tubular section. Of the secondary separation container in which the tubes are injected with a concentrated fluid, a condensate Can be in the direction along the tangent line, at least to the inside of the container. For secondary separation 1 8. Method of claim No. 17, where the fluid mixture is a natural gas stream. Which are cooled in a gas cooling device which is equipped with a separate With primary eddy inertia, one or more devices are subjected to temperatures below 0 ° C, which condenses and / or condenses, adquies and hydrocarbons and hydrates in a gasified state to a solid state, and Tertiary fluid mixtures are composed of water, ice, hydrocarbon condensation. And hydrated in a gasy state And it has been done Heat the tertiary fluid storage tank to a temperature of more than 15 ° C to reduce the volume. Of hydrated in a gasified state And where from this tank the hydrocarbon condensation, which has Low density will be released through the outlet for the above liquid. And components Acquies, which have a high density, are released through an outlet for the liquid below.